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Regional Climate Change Impacts on Water Resources NOAA-CREST Reza Khanbilvardi July 2011 Fresh Water Distribution Freshwater (2.5%) Surface freshwater (1%) Groundwater (20%) Water within organisms (1%) Rivers (1%) Atmospheric water vapor (8%) Soil moisture (38%) Oceans (97.5%) Ice caps and glaciers (79%) Lakes (52%) All water Freshwater Surface freshwater Freshwater • Only 2.5% of the planet’s water is freshwater. • And only 1% of that exists on Earth’s surface. Only 1 part in 10,000 of water is easily accessible for drinking and irrigation. All of the major climate models predict significant temperature increases during the 20th century Air Temperature vs. Rainfall/Snowfall Annual mean temperature anomalies, 1901-2005. Red shades indicate warming over the period, and blue shades indicate cooling over the period. Annual precipitation trends, 1901-2005. Green shades indicate a trend towards wetter conditions over the period, and brown shades indicate a trend towards dryer conditions. Melting Ice and Rising Seas Sea level is already rising worldwide. Mean sea levels have risen approximately 5 to 9 inches (12 to 22 cm) since the 1890s. This is due to the rapid melting of ice and glaciers. Several major models (the colored lines) project declines in sea ice coverage during the 21st century. Climate Change = Hydrologic Change Sea Level Rise Climate Change and Water • Future effect of climate change on global water resources depends on both – Climatic factors AND – Non-climatic factors • • • • • Population growth Changes in economy Development of new tech Changes in watershed characteristics Watershed management Impacts of Climate Change • Changes in Water Availability – Quantity – Quality – Timing – Distribution Is this sustainable? • Limited fresh water resources • Uneven distribution of water resources • Water pollution • Climate change • Growing population http://www.unwater.org/img/usepercentage.jpg UNDERSTANDING SIGNIFICANT CLIMATE EVENTS IN WORLD Significant Climate Events in January 2011 State of the Climate: Global Analysis By NCDC/NESDIS/NOAA Significant Climate Events in February 2011 Significant Climate Events in April 2011 Significant Climate Events in May 2011 Global Water Resources http://maps.grida.no/library/files/increased-global-water-stress_003.jpg Water Security Risk Index 2010 Global Precipitation Anomalies Global Temperature Anomalies Temperature during 2007 above the 1950-1980 baseline Global Temperature Anomalies A future of water wars? “The wars of the 21st century will be fought over water.” — Ismail Serageldin, Chairman of the World Water Commission • Already, scarcity has caused or exacerbated conflict in arid areas (e.g., Colorado River states in southwest U.S., the Middle East). • Many nations have cooperated with neighbors to resolve water disputes. Climate Change and Water Resources Anticipated changes in the water cycle of the United States. Highlights of Water-related Impacts by Sector Sector Examples of Impacts Human Health Heavy downpours increase incidence of waterborne disease and floods, resulting in potential hazards to human life and health. Energy Supply and Use Hydropower production is reduced due to low flows in some regions. Power generation is reduced in fossil fuel and nuclear plants due to increased water temperatures and reduced cooling water availability. Transportation Floods and droughts disrupt transportation. Heavy downpours affect harbor infrastructure and inland waterways. Declining Great Lakes levels reduce freight capacity. Agriculture and Forests Intense precipitation can delay spring planting and damage crops. Earlier spring snowmelt leads to increased number of forest fires. High temperatures and flooding decrease food production. Ecosystems Coldwater fish threatened by rising water temperatures. Some warmwater fish will expand ranges. Highlights of Water-related Impacts by Sector Recreational Activity Skiing, Northeast Snowmobiling, Northeast Beaches, North Carolina Potential Impacts of Climate Change Estimated Economic Impacts 20% reduction in length of ski season $800 million loss per year, potential resort closures Reduction of season length under higher emissions scenario Complete loss of opportunities in New York and Pennsylvania within a few decades, 80% reduction in season length for region by end of century Many beaches are eroded, and some lost by 2080 Reduced opportunities for beach and fishing grips, without additional cost for adaptation measures Climate impact on Snow cover/snow melt Impact of Snow Melt on in Peak Stream flow Timing Climate change lead to larger changes in snowmelt will possibly increasing wildfire risk and creating new water management challenges for agriculture, ecosystems and urban populations. Peak Stream flow Timing Floods in river basins often occurs due to rapid snow melt (sometimes with ice jam) in spring Extreme rain on snow events in the melting season (super flash flood) Extreme Precipitation Events NORTHEAST: • Average annual temperature increase of 2oF since 1970 • Increase in warm days, longer growing season, downpours • Decrease in precipitation falling as snow SOUTHEAST: • Average annual temperature increase of 2oF since 1970 • Seasonal changes in precipitation (e.g., 30% increase in Fall, decrease in summer) • Increase in heavy downpours and drought coverage • Increase in power of Atlantic hurricanes since 1970 Change in Annual Runoff Projected U.S. Temperature Increase (2040-2060) Effect on Soil Moisture: Droughts Long Term Drought Conditions Effect on Agriculture Productivity • An increase in average temperature can – lengthen the growing season in regions with a relatively cool spring and fall; – adversely affect crops in regions where summer heat already limits production; – increase soil evaporation rates, and – increase the chances of severe droughts. • Changes in rainfall can affect soil erosion rates and soil moisture, both of which are important for crop yields. • Food production is projected to benefit from a warmer climate, but there probably will be strong regional effects, with some areas in North America suffering significant loss of comparative advantage to other regions. • The U.S. Great Plains/Canadian Prairies are expected to be particularly vulnerable. Effect on Forest Fire Forest Fire Large forest fires have occurred more frequently in the western United States since the mid-1980s as spring temperatures increased, mountain snows melted earlier and summers got hotter. Fire danger forecasts These forecasts can be used for operational and strategic fire planning at regional and national scales. Source: Wild land Fire Assessment System / National Weather Service Climate Change Link with Vegetation Shifts ScienceDaily (June 9, 2010) • The long-term vegetation shifts in which climate plays more role than impacts from local human activity such as deforestation. • Some examples of biome shifts that occurred include woodlands giving way to grasslands in the African Sahel, and shrublands encroaching onto tundra in the Arctic. • Vegetation has been gradually moving toward the poles and up mountain slopes, where temperatures are cooler, as well as toward the equator, where rainfall is greater. Other Effects of Climate Change Observed Water-Related Changes During the Last Century Observed Change Direction of Change Region Affected Earlier West and Northeast Proportion of precipitation falling as snow Decreasing West and Northeast Duration and extent of snow cover Decreasing Most of the U. S. Mountain snow water equivalent Decreasing West Annual precipitation Increasing Most of the U. S. Annual precipitation Decreasing Southwest Frequency of heavy precipitation events Increasing Most of the U. S. Runoff and streamflow Decreasing Colorado and Columbia River Basins Streamflow Increasing Most of East Amount of ice in mountain glaciers Decreasing Western mountains and Alaska Water temperature of lakes and streams Increasing Most of the U. S. Ice cover on lakes and rivers Decreasing Great Lakes and Northeast Periods of drought Increasing Parts of West and East Salinization of surface waters Increasing Florida and Louisiana Widespread thawing of permafrost Increasing Alaska One to four week earlier peak streamflow due to earlier warming-driven snowmelt Plumbing the Colorado River • The once-mighty Colorado River is now dammed. So much water is withdrawn that it barely reaches the sea. • Western states apportion the water according to a pact, but California has long exceeded its share. • In 2003 the U.S. government cut California’s flow. Months of wrangling followed until a deal was reached. Climate Change and Water in California Climate Change Impacts to California’s Water Resources • By 2050: loss of at least 25 percent of the Sierra snowpack • More variable weather patterns – More flooding and longer, more severe droughts • Rising water temperatures and changes in runoff patterns may adversely impact salmon and other species. • Sea level rise will threaten many coastal communities as well as the sustainability of the Sacramento-San Joaquin Delta. – Salt water intrusion http://www.water.ca.gov/climatechange/docs/062807factsheet.pdf http://www.water.ca.gov/climatechange/docs/062807factsheet.pdf Snowpack Projections Ten-year moving average percent change in April 1 snowpack simulated. Region labels are as follows, PNW – Pacific Northwest, CRM - Central Rocky Mountains, SN -Sierra Nevada, and SRM - Southern Rocky Mountains. Potential reduction in hydropower – Increased population and greater demand for energy – Decreased snow melt flowing through = decreased potential for hydropower production – However, future precipitation projections are uncertain. Shasta dam (USGS) http://www.climatechoices.org/ca/site/ca/site/our-changing-climate.html Coastal inundation impact…New York Questions?